SPORTS VEHICLE SEAT WITH ADAPTIVE LATERAL RESTRAINTS

Description

TECHNICAL FIELD

[0001] The present invention relates to a sports vehicle seat.

BACKGROUND ART

[0002] When cornering, a vehicle and the occupants are subjected to lateral (or centrifugal) acceleration directly proportional to the square of vehicle speed, and inversely proportional to the curve radius.

[0003] Lateral acceleration of an occupant of a vehicle when cornering results in a lateral force which tends to push the occupant out of the seat. Which is why vehicle seats normally provide for a certain degree of lateral restraint to counteract the lateral forces to which occupants are subjected when cornering.

[0004] When driving normally along public highways, vehicle speed, and therefore lateral acceleration when cornering, are relatively low, so that vehicle seats need only a minimum amount of lateral restraint to ensure adequate driving comfort of the occupants. Conversely, when racing on track or along highways closed off to the public, vehicle speed is high, so that lateral acceleration when cornering may reach extremely high levels (as much as 1 g in the case of sports cars). In which case, seats must offer a high degree of lateral restraint to prevent the occupants being unseated when cornering. It should be pointed out that a seat with a high degree of lateral restraint serves not only to prevent undesired lateral movement of the driver when cornering, but also to transmit any lateral stress promptly to the driver's body, to enable the driver to "physically feel" the dynamic performance of the vehicle.

[0005] In the case of a sports vehicle that can be used both normally on public highways and on race tracks, a trade-off in terms of the degree of lateral restraint of the seats is inevitable. That is, it must not be so low as to penalize racing performance, but at the same time it must not be so high as to impair easy access to the seat portion of the seat during normal use. The compromise struck normally fails to achieve either. The only valid alternative is to have two sets of seats, one for normal use, and one for racing. Changing the seats, however, is a fairly long, painstaking job which calls for skilled labour, in that incorrect assembly may have serious consequences, particularly in the event of accidents.

[0006] Moreover, a seat with a high degree of lateral restraint fails to comfortably accommodate occupants of different build - and must therefore be adapted to the build of the usual occupant - and makes entering and exiting the vehicle particularly awkward. These drawbacks are obviously routine in track racing, but are unacceptable during normal use of the vehicle.

[0007] DE10211383 discloses a vehicle seat having a mechanical shaping mechanism, which comprises a memory metal and is controlled by an evaluation unit connected to a force sensors arranged in the seat, according to the preamble of claim 1.

DISCLOSURE OF INVENTION

[0008] It is an object of the present invention to provide a sports vehicle seat which is cheap and easy to produce, while at the same time eliminating the aforementioned drawbacks.

[0009] According to the present invention, there is provided a sports vehicle seat having the features of claim 1.

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] A number of non-limiting embodiments of the present invention will be described by way of example with reference to the accompanying drawings, in which:

Figure 1 shows a view in perspective of a sports vehicle seat in accordance with the present invention and in a comfort configuration;

Figure 2 shows a view in perspective of the Figure 1 seat in a racing configuration;

Figure 3 shows a plan view of the seatback of the Figure 1 seat in the racing configuration;

Figure 4 shows a front view of the seatback of the Figure 1 seat in the racing configuration;

Figure 5 shows a view in perspective of the seat portion of the Figure 1 seat in the racing configuration;

Figure 6 shows a plan view of the seat portion of the Figure 1 seat in the racing configuration;

Figure 7 shows a view in perspective of an alternative embodiment of the seat portion of the Figure 1 seat in the comfort configuration;

Figure 8 shows a view in perspective of the Figure 7 seat portion in the racing configuration;

Figure 9 shows a view in perspective of a further embodiment of the seat portion of the Figure 1 seat in the comfort configuration;

Figure 10 shows a view in perspective of the Figure 9 seat portion in the racing configuration; and

Figure 11 shows schematically a view in perspective of a shape-memory member used in the Figure 1 seat.

BEST MODE FOR CARRYING OUT THE INVENTION

[0011] Number 1 in Figure 1 indicates as a whole a sports vehicle seat comprising a vertical seatback 2 and a horizontal seat portion 3. Seatback 2 comprises two lateral restraints 4, on opposite sides of seatback 2, for laterally retaining an occupant of the seat; and seat portion 3 comprises two lateral restraints 5, on opposite sides of seat portion 3, for laterally retaining an occupant of the seat.

[0012] Each lateral restraint 4, 5 incorporates at least one shape-memory member 6 (shown schematically in Figure 1) which changes shape when subjected to physical external stress. By changing the shape of shape-memory members 6, the shape and/or size of lateral restraints 4 and 5 can therefore be altered to adapt the degree of lateral restraint provided by lateral restraints 4 and 5.

[0013] Seat 1 also comprises an actuating device 7 (shown schematically in Figure 1) which applies physical external stress to each shape-memory member 6 to adapt the shape and/or size of lateral restraints 4 and 5 as a function of vehicle driving mode. In a preferred embodiment, the physical external stress applied to shape-memory members 6 by actuating device 7 is heat generated by an electric current.

[0014] Under the control of actuating device 7, each lateral restraint 4, 5 may assume a comfort configuration characterized by a low degree of lateral restraint (as shown in Figures 1, 7, 9), and a racing configuration characterized by a high degree of lateral restraint (as shown in Figures 2-6, 8, 10). Each lateral restraint 4, 5 may preferably also assume intermediate configurations between the comfort configuration and the racing configuration. In an alternative embodiment, each lateral restraint 4, 5 only assumes the comfort configuration or the racing configuration.

[0015] As shown in Figures 1 to 4, lateral restraints 4 of seatback 2 are positioned parallel to each other and perpendicular to seatback 2 in the comfort configuration, and deform, by increasing in volume and tilting towards each other, to grip the occupant of seat 1, when switching from the comfort configuration to the racing configuration.

[0016] As shown in Figures 1, 2, 5 and 6, lateral restraints 5 of seat portion 3 are withdrawn inside seat portion 3, with only a minimum part projecting vertically upwards from seat portion 3, in the comfort configuration, and deform, by increasing in volume and tilting towards each other, to grip the occupant of seat 1, when switching from the comfort configuration to the racing configuration. More specifically, lateral restraints 5 of seat portion 3 expand upwards and increase in volume, when switching from the comfort configuration to the racing configuration, so as to project upwards from seat portion 3.

[0017] In an alternative embodiment shown in Figures 7 to 10, lateral restraints 5 of seat portion 3 rotate towards the occupant of seat 1, when switching from the comfort configuration to the racing configuration. In the Figure 9 and 10 variation, each lateral restraint 5 of seat portion 3 is formed in two parts, which rotate by different angles when switching from the comfort configuration to the racing configuration.

[0018] In a preferred embodiment, actuating device 7 comprises proximity or force sensors 8, each for determining the distance between at least one lateral restraint 4, 5 and the occupant of seat 1, so as to adapt the shape and/or size of lateral restraint 4, 5 to the actual size of the occupant. Two proximity sensors are preferably embedded in lateral restraints 4 of seatback 2 to accurately adapt deformation of lateral restraints 4 to comfortably enclose the sides of the occupant of the seat with no cramping. Similarly, two proximity sensors are embedded in lateral restraints 5 of seat portion 3 to accurately adapt deformation of lateral restraints 5 to comfortably enclose the legs of the occupant of the seat with no cramping.

[0019] According to the invention and as shown in Figure 11, each shape-memory member 6 comprises a main body 9 made of a shape-memory polymer (SMP), which is rigid at low temperature, but becomes soft and rubbery (and therefore deformable) at high temperature (roughly over 25-40°C, depending on the type of polymer used). Each shape-memory member 6 also comprises a number of actuating wires 10 integrated in, close to a lateral wall of, main body 9, and made of a shape-memory alloy (SMA) which shortens above a given threshold temperature and lengthens again below the threshold temperature. A number of parallel, spaced actuating wires 10 are preferably provided.

[0020] Starting with a shape-memory member 6 with a rigid main body 9, main body 9 is heated until it becomes deformable; actuating wires 10 are then heated or cooled to produce a change in their length (shorten if heated, lengthen if cooled) and so deform main body 9; and, finally, main body 9 is cooled to become once more rigid and so stabilize the new shape.

[0021] In actual use, vehicle driving mode is determined, and actuating device 7 accordingly adapts the shape and/or size of lateral restraints 4 and 5. The degree of lateral restraint provided by lateral restraints 4 and 5 is thus optimized at all times with respect to the vehicle driving mode, to achieve maximum comfort in normal driving mode, and maximum safety and driving performance in racing mode. In other words, the vehicle comprises a control unit which governs actuating device 7 to adapt the shape and/or size of lateral restraints 4 and 5 as a function of vehicle driving mode.

[0022] Vehicle driving mode may be determined manually, according to the setting of a driver-operated selector, or automatically by determining vehicle speed and/or longitudinal and lateral acceleration of the vehicle.

[0023] It should be pointed out that the shape, number, and location of lateral restraints 4 and 5 of seat 1 may differ for both aesthetic and functional reasons.

[0024] By adapting the degree of lateral restraint to vehicle driving mode, seat 1 as described above has numerous advantages, by providing a high degree of comfort in normal driving mode along public highways, as well as a high degree of safety and driving performance in track racing mode. Moreover, by virtue of sensors 8, the shape and/or size of lateral restraints 4 and 5 of seat 1 can be adapted to the actual build of the occupant of seat 1, which can therefore comfortably and safely accommodate occupants of widely differing build.

Claims

1. A sports vehicle seat (1) comprising:

lateral restraints (4, 5) for laterally retaining an occupant of the seat (1); each lateral restraint (4, 5) incorporates at least one shape-memory member (6), which changes shape when subjected to physical external stress so that the shape and/or size of the lateral restraints (4, 5) are/is adaptive to adapt the degree of lateral restraint provided by the lateral restraints (4, 5); and

an actuating device (7) to adapt the shape and/or size of the lateral restraints (4, 5) as a function of vehicle driving mode by subjecting each shape-memory member (6) to physical external stress to change the shape of the shape-memory member (6);

the seat (1) is characterized in that:

each shape-memory member (6) comprises a main body (9) made of a shape-memory polymer and a number of actuating wires (10) integrated in the main body (9), close to a lateral wall of the main body (9), and made of a shape-memory alloy;

each lateral restraint (4, 5) may assume a comfort configuration characterized by a low degree of lateral restraint, and a racing configuration characterized by a high degree of lateral restraint; and

two lateral restraints (4, 5), facing each other on opposite sides of the seat (1), deform and tilt towards each other to grip the occupant, when switching from the comfort configuration to the racing configuration.

2. A seat (1) as claimed in Claim 1, wherein the actuating device (7) subjects each shape-memory member (6) to electric heating of varying intensity.

3. A seat (1) as claimed in Claim 1 or 2, wherein a shape-memory member (6) comprises a number of parallel, spaced actuating wires (10).

4. A seat (1) as claimed in Claim 1, 2 or 3, wherein, to change the shape of a shape-memory member (6), the main body (9) is heated to become deformable, the actuating wires (10) are heated or cooled to produce a change in their length and so deform the main body (9), and the main body (9) is cooled to become once more rigid and so stabilize the new shape.

5. A seat (1) as claimed in one of Claims 1 to 4, wherein each lateral restraint (4, 5) may assume intermediate configurations between the comfort configuration and the racing configuration.

6. A seat (1) as claimed in one of Claims 1 to 5, and comprising a vertical seatback (2) and a horizontal seat portion (3); the seatback (2) comprises at least two first lateral restraints (4), which deform and tilt towards each other to grip the occupant, when switching from the comfort configuration to the racing configuration.

7. A seat (1) as claimed in Claim 6, wherein the two first lateral restraints (4) deform by tilting towards each other and increasing in volume, when switching from the comfort configuration to the racing configuration.

8. A seat (1) as claimed in one of Claims 1 to 7, and comprising a vertical seatback (2) and a horizontal seat portion (3); the seat portion (3) comprises at least two second lateral restraints (5), which expand upwards when switching from the comfort configuration to the racing configuration.

9. A seat (1) as claimed in Claim 8, wherein the two second lateral restraints (5) deform by tilting towards each other to grip the occupant, when switching from the comfort configuration to the racing configuration.

10. A seat (1) as claimed in one of Claims 1 to 7, and comprising a vertical seatback (2) and a horizontal seat portion (3); the seat portion (3) comprises at least two second lateral restraints (5), which rotate towards the occupant when switching from the comfort configuration to the racing configuration.

11. A seat (1) as claimed in Claim 10, wherein each second lateral restraint (5) is formed in at least two parts, which rotate by different angles when switching from the comfort configuration to the racing configuration.

12. A seat (1) as claimed in one of Claims 1 to 11, wherein the actuating device (7) comprises at least one sensor (8) for determining the distance between at least one lateral restraint (4, 5) and the occupant, so as to adapt the shape and/or size of the lateral restraint (4, 5) as a function of the actual size of the occupant.

13. A seat (1) as claimed in Claim 12, wherein the sensor (8) is a proximity sensor.

14. A seat (1) as claimed in Claim 12, wherein the sensor (8) is a force sensor.

15. A seat (1) as claimed in Claim 12, 13, or 14, wherein the sensor (8) is embedded in the lateral restraint (4, 5).

Ansprüche

1. Ein Sportfahrzeugsitz (1), umfassend

seitliche Halteelemente (4, 5) zum seitlichen Halten eines Insassen des Sitzes (1); wobei jedes seitliche Halteelement (4, 5) zumindest ein Formgedächtniselement (6) beinhaltet, das die Form ändert, wenn es äußerer physischer Belastung ausgesetzt wird, so dass die Form und/oder Größe der seitlichen Halteelemente (4, 5) anpassungsfähig ist/sind, um den Grad an durch die seitlichen Halteelemente (4, 5) bereitgestelltem seitlichem Halt anzupassen; und

eine Stellvorrichtung (7) zum Anpassen der Form und/oder Größe der seitlichen Halteelemente (4, 5) als eine Funktion des Fahrzeugbetriebsart, indem es jedes Formgedächtniselement (6) äußerer physischer Belastung aussetzt, um die Form des Formgedächtniselementes (6) zu ändern;

der Sitz ist dadurch gekennzeichnet, dass

jedes Formgedächtniselement (6) einen aus einem Formgedächtnispolymer hergestellten Hauptkörper (9) und eine Anzahl von in den Hauptkörper (9) integrierten Stelldrähten (10), die sich nahe einer seitlichen Wand des Hauptkörpers (9) befinden und aus einer Formgedächtnislegierung hergestellt sind, umfasst;

wobei jedes seitliche Halteelement (4, 5) eine Komforteinstellung, die durch einen geringen Grad an seitlichem Halt gekennzeichnet ist; und eine Renneinstellung, die durch einen hohen Grad an seitlichem Halt gekennzeichnet ist, einnehmen kann; und

zwei seitliches Halteelemente (4, 5), die einander an gegenüberliegenden Seiten des Sitzes (1) zugewandt sind, sich verformen und zueinander neigen, um den Insassen festzuhalten, wenn sie aus der Komforteinstellung in die Renneinstellung wechseln.

2. Ein Sitz (1) nach Anspruch 1 , wobei die Stellvorrichtung (7) jedes Formgedächtniselement (6) mit unterschiedlicher Intensität elektrisch heizt.

3. Eins Sitz (1) nach Anspruch 1 oder 2, wobei ein Formgedächtniselement (6) eine Anzahl paralleler, beabstandeter Stelldrähte (10) umfasst.

4. Ein Sitz (1) nach Anspruch 1 , 2 oder 3, wobei zum Ändern der Form eines Formgedächtniselementes (6) der Hauptkörper (9) erwärmt wird, um verformbar zu werden, die Stelldrähte (10) erwärmt oder gekühlt werden, um eine Änderung ihrer Länge zu bewirken und so den Hauptkörper (9) zu verformen, und der Hauptkörper (9) gekühlt wird, um wieder starr zu werden und so die neue Form zu stabilisieren.

5. Ein Sitz (1) nach irgendeinem der Ansprüche 1 bis 4, wobei jedes seitliche Halteelement (4, 5) Zwischeneinstellungen zwischen der Komforteinstellung und der Renneinstellung einnehmen kann.

6. Ein Sitz (1) nach irgendeinem der Ansprüche 1 bis 5, und umfassend eine vertikale Rückenlehne (2) und einen horizontalen Sitzabschnitt (3); wobei die vertikale Rückenlehne (2) mindestens zwei erste seitliche Halteelemente (4) umfasst, die sich verformen und zueinander neigen, um den Insassen festzuhalten, wenn sie von der Komforteinstellung in die Renneinstellung wechseln.

7. Ein Sitz (1) nach Anspruch 6, wobei die zwei ersten seitlichen Halteelemente (4) sich verformen, indem sie sich zueinander neigen und ihr Volumen vergrößern, wenn sie von der Komforteinstellung in die Renneinstellung wechseln.

8. Ein Sitz (1) nach irgendeinem der Ansprüche 1 bis 7, und umfassend eine vertikale Rückenlehne (2) und einen horizontalen Sitzabschnitt (3); wobei der Sitzabschnitt (3) mindestens zwei zweite seitliche Halteelemente (5) umfasst, die sich nach oben ausdehnen, wenn sie von der Komforteinstellung in die Renneinstellung wechseln.

9. Ein Sitz (1) nach Anspruch 8, wobei die zwei zweiten seitlichen Halteelemente (5) sich verformen, indem sie sich zueinander neigen, um den Insassen festzuhalten, wenn sie von der Komforteinstellung in die Renneinstellung wechseln.

10. Ein Sitz (1) nach irgendeinem der Ansprüche 1 bis 7, und umfassend eine vertikale Rückenlehne (2) und einen horizontalen Sitzabschnitt (3); wobei der Sitzabschnitt (3) mindestens zwei zweite seitliche Halteelemente (5) umfasst, die sich zum Insassen hin drehen, wenn sie von der Komforteinstellung in die Renneinstellung wechseln.

11. Ein Sitz (1) nach Anspruch 1 0, wobei die jedes zweite seitliche Halteelemente (5) in mindestens zwei Teilen ausgebildet ist, die sich um verschiedene Winkel drehen, wenn sie von der Komforteinstellung in die Renneinstellung wechseln.

12. Ein Sitz (1) nach irgendeinem der Ansprüche 1 bis 11, wobei die Stellvorrichtung (7) mindestens einen Sensor (8) zur Bestimmung der Distanz zwischen mindestens einem seitlichen Halteelement (4, 5) und dem Insassen umfasst, um so die Form und/oder Größe des seitlichen Halteelementes (4, 5) als eine Funktion der tatsächlichen Größe des Insassen anzupassen.

13. Ein Sitz (1) nach Anspruch 1 2, wobei der Sensor (8) ein Abstandssensor ist.

14. Ein Sitz (1) nach Anspruch 12, wobei der Sensor (8) ein Kraftsensor ist.

15. Ein Sitz (1) nach Anspruch 12, 13 oder 14, wobei der Sensor (8) in dem seitlichen Halteelement (4, 5) eingebettet ist.

Revendications

1. Siège (1) pour véhicule de sport, comprenant :

des retenues latérales (4, 5) pour retenir latéralement un occupant du siège (1) ; chaque retenue latérale (4, 5) comprend au moins un élément à mémoire de forme (6) qui change de forme lorsqu'il est soumis à

une tension externe physique de sorte que la forme et/ou la taille des retenues latérales (4, 5) est /sont adaptative(s) pour adapter le degré de retenue latérale fourni par les retenues latérales (4, 5) ; et

un dispositif d'actionnement (7) pour adapter la forme et/ou la taille des retenues latérales (4, 5) en fonction du mode de circulation du véhicule en soumettant chaque élément à mémoire de forme (6) à la tension externe physique pour changer la forme de l'élément à mémoire de forme (6) ;

le siège (1) est caractérisé en ce que :

chaque élément à mémoire de forme (6) comprend un corps principal (9) réalisé avec un polymère à mémoire de forme et un certain nombre de câbles d'actionnement (10) intégrés dans le corps principal (9), à proximité d'une paroi latérale du corps principal (9) et réalisés avec un alliage à mémoire de forme ;

chaque retenue latérale (4, 5) peut prendre une configuration de confort caractérisée par un faible degré de retenue latérale, et une configuration de course caractérisée par un degré élevé de retenue latérale ; et

deux retenues latérales (4, 5) se faisant face sur les côtés opposés du siège (1), se déforment et s'inclinent l'une vers l'autre pour bloquer l'occupant, lorsqu'elles passent de la configuration de confort à la configuration de course.

2. Siège (1) selon la revendication 1, dans lequel le dispositif d'actionnement (7) soumet chaque élément à mémoire de forme (6) au chauffage électrique d'intensité variable.

3. Siège (1) selon la revendication 1 ou 2, dans lequel un élément à mémoire de forme (6) comprend un certain nombre de câbles d'actionnement parallèles espacés (10).

4. Siège (1) selon la revendication 1, 2 ou 3, dans lequel, afin de changer la forme d'un élément à mémoire de forme (6), le corps principal (9) est chauffé pour devenir déformable, les câbles d'actionnement (10) sont chauffés ou refroidis pour produire un changement du point de vue de leur longueur et ainsi déformer le corps principal (9), et le corps principal (9) est refroidi pour redevenir rigide et pour stabiliser la nouvelle forme.

5. Siège (1) selon l'une des revendications 1 à 4, dans lequel chaque retenue latérale (4, 5) peut prendre des configurations intermédiaires entre la configuration de confort et la configuration de course.

6. Siège (1) selon l'une des revendications 1 à 5, et comprenant un dossier vertical (2) et une partie de siège horizontale (3) ; le dossier (2) comprend au moins deux premières retenues latérales (4) qui se déforment et s'inclinent l'une vers l'autre pour bloquer l'occupant, lorsqu'elles passent de la configuration de confort à la configuration de course.

7. Siège (1) selon la revendication 6, dans lequel les deux premières retenues latérales (4) se déforment en s'inclinant l'une vers l'autre et en augmentant en volume, lorsqu'elles passent de la configuration de confort à la configuration de course.

8. Siège (1) selon l'une des revendications 1 à 7, et comprenant un dossier vertical (2) et une partie de siège horizontale (3) ; la partie de siège (3) comprend au moins deux secondes retenues latérales (5) qui s'expansent vers le haut lorsqu'elles passent de la configuration de confort à la configuration de course.

9. Siège (1) selon la revendication 8, dans lequel les deux secondes retenues latérales (5) se déforment en s'inclinant l'une vers l'autre pour bloquer l'occupant, lorsqu'elles passent de la configuration de confort à la configuration de course.

10. Siège (1) selon l'une des revendications 1 à 7, et comprenant un dossier vertical (2) et une partie de siège horizontale (3) ; la partie de siège (3) comprend au moins deux secondes retenues latérales (5) qui se tournent vers l'occupant lorsqu'elles passent de la configuration de confort à la configuration de course.

11. Siège (1) selon la revendication 10, dans lequel chaque seconde retenue latérale (5) est formée en au moins deux parties, qui tournent selon des angles différents lorsqu'elles passent de la configuration de confort à la configuration de course.

12. Siège (1) selon l'une des revendications 1 à 11, dans lequel le dispositif d'actionnement (7) comprend au moins un capteur (8) pour déterminer la distance entre au moins une retenue latérale (4, 5) et l'occupant afin d'adapter la forme et/ou la taille de la retenue latérale (4, 5) en fonction de la taille réelle de l'occupant.

13. Siège (1) selon la revendication 12, dans lequel le capteur (8) est un capteur de proximité.

14. Siège (1) selon la revendication 12, dans lequel le capteur (8) est un capteur de force.

15. Siège (1) selon la revendication 12, 13 ou 14, dans lequel le capteur (8) est encastré dans la retenue latérale (4, 5).

Drawing